US8840717B2 - Asphalt modifiers for “warm mix” applications including adhesion promoter - Google Patents
Asphalt modifiers for “warm mix” applications including adhesion promoter Download PDFInfo
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- US8840717B2 US8840717B2 US13/875,600 US201313875600A US8840717B2 US 8840717 B2 US8840717 B2 US 8840717B2 US 201313875600 A US201313875600 A US 201313875600A US 8840717 B2 US8840717 B2 US 8840717B2
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- C—CHEMISTRY; METALLURGY
- C08—ORGANIC MACROMOLECULAR COMPOUNDS; THEIR PREPARATION OR CHEMICAL WORKING-UP; COMPOSITIONS BASED THEREON
- C08K—Use of inorganic or non-macromolecular organic substances as compounding ingredients
- C08K5/00—Use of organic ingredients
- C08K5/16—Nitrogen-containing compounds
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- C—CHEMISTRY; METALLURGY
- C08—ORGANIC MACROMOLECULAR COMPOUNDS; THEIR PREPARATION OR CHEMICAL WORKING-UP; COMPOSITIONS BASED THEREON
- C08L—COMPOSITIONS OF MACROMOLECULAR COMPOUNDS
- C08L91/00—Compositions of oils, fats or waxes; Compositions of derivatives thereof
- C08L91/06—Waxes
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- C—CHEMISTRY; METALLURGY
- C08—ORGANIC MACROMOLECULAR COMPOUNDS; THEIR PREPARATION OR CHEMICAL WORKING-UP; COMPOSITIONS BASED THEREON
- C08L—COMPOSITIONS OF MACROMOLECULAR COMPOUNDS
- C08L93/00—Compositions of natural resins; Compositions of derivatives thereof
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- C—CHEMISTRY; METALLURGY
- C08—ORGANIC MACROMOLECULAR COMPOUNDS; THEIR PREPARATION OR CHEMICAL WORKING-UP; COMPOSITIONS BASED THEREON
- C08L—COMPOSITIONS OF MACROMOLECULAR COMPOUNDS
- C08L95/00—Compositions of bituminous materials, e.g. asphalt, tar, pitch
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- E—FIXED CONSTRUCTIONS
- E01—CONSTRUCTION OF ROADS, RAILWAYS, OR BRIDGES
- E01C—CONSTRUCTION OF, OR SURFACES FOR, ROADS, SPORTS GROUNDS, OR THE LIKE; MACHINES OR AUXILIARY TOOLS FOR CONSTRUCTION OR REPAIR
- E01C7/00—Coherent pavings made in situ
- E01C7/08—Coherent pavings made in situ made of road-metal and binders
- E01C7/18—Coherent pavings made in situ made of road-metal and binders of road-metal and bituminous binders
- E01C7/26—Coherent pavings made in situ made of road-metal and binders of road-metal and bituminous binders mixed with other materials, e.g. cement, rubber, leather, fibre
- E01C7/265—Coherent pavings made in situ made of road-metal and binders of road-metal and bituminous binders mixed with other materials, e.g. cement, rubber, leather, fibre with rubber or synthetic resin, e.g. with rubber aggregate, with synthetic resin binder
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- C—CHEMISTRY; METALLURGY
- C08—ORGANIC MACROMOLECULAR COMPOUNDS; THEIR PREPARATION OR CHEMICAL WORKING-UP; COMPOSITIONS BASED THEREON
- C08L—COMPOSITIONS OF MACROMOLECULAR COMPOUNDS
- C08L2555/00—Characteristics of bituminous mixtures
- C08L2555/20—Mixtures of bitumen and aggregate defined by their production temperatures, e.g. production of asphalt for road or pavement applications
- C08L2555/24—Asphalt produced between 100°C and 140°C, e.g. warm mix asphalt
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- C—CHEMISTRY; METALLURGY
- C08—ORGANIC MACROMOLECULAR COMPOUNDS; THEIR PREPARATION OR CHEMICAL WORKING-UP; COMPOSITIONS BASED THEREON
- C08L—COMPOSITIONS OF MACROMOLECULAR COMPOUNDS
- C08L2555/00—Characteristics of bituminous mixtures
- C08L2555/40—Mixtures based upon bitumen or asphalt containing functional additives
- C08L2555/60—Organic non-macromolecular ingredients, e.g. oil, fat, wax or natural dye
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- C—CHEMISTRY; METALLURGY
- C08—ORGANIC MACROMOLECULAR COMPOUNDS; THEIR PREPARATION OR CHEMICAL WORKING-UP; COMPOSITIONS BASED THEREON
- C08L—COMPOSITIONS OF MACROMOLECULAR COMPOUNDS
- C08L2555/00—Characteristics of bituminous mixtures
- C08L2555/40—Mixtures based upon bitumen or asphalt containing functional additives
- C08L2555/60—Organic non-macromolecular ingredients, e.g. oil, fat, wax or natural dye
- C08L2555/70—Organic non-macromolecular ingredients, e.g. oil, fat, wax or natural dye from natural non-renewable resources
- C08L2555/72—Petrochemical based or extracted waxes, e.g. paraffin, Montan wax or cracked polyethylene wax
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- C—CHEMISTRY; METALLURGY
- C08—ORGANIC MACROMOLECULAR COMPOUNDS; THEIR PREPARATION OR CHEMICAL WORKING-UP; COMPOSITIONS BASED THEREON
- C08L—COMPOSITIONS OF MACROMOLECULAR COMPOUNDS
- C08L2555/00—Characteristics of bituminous mixtures
- C08L2555/40—Mixtures based upon bitumen or asphalt containing functional additives
- C08L2555/80—Macromolecular constituents
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02A—TECHNOLOGIES FOR ADAPTATION TO CLIMATE CHANGE
- Y02A30/00—Adapting or protecting infrastructure or their operation
- Y02A30/30—Adapting or protecting infrastructure or their operation in transportation, e.g. on roads, waterways or railways
Definitions
- the present invention generally relates to a novel combination of surfactants and asphalt modifiers that facilitates the mixing, lay down and compaction of asphalt mixes at lower than normal temperatures, while at the same time significantly improving the moisture resistance properties of hot or warm asphalt mixes.
- This duel effect of a single additive package differentiates the claimed invention from current “Warm Mix” Asphalt technologies. Also unlike several other Warm Mix technologies this invention does not require the use of water for foaming asphalt and thereby lowering compaction temperatures.
- Asphalt mixes are widely used in road construction and maintenance and the majority of asphalt mixes that are used currently are produced by the hot method which is generally known as hot-mix or HMA and also known as asphalt concrete.
- HMA hot-mix
- asphalt concrete also known as asphalt concrete.
- These asphalt mixes consists of asphalt binder and mineral aggregate.
- the aggregates used could be either natural or processed. Normally processed aggregates are used which have been quarried, crushed, separated into distinct size fractions, washed or otherwise processed to achieve certain performance characteristics of the finished HMA.
- the aggregates are usually a mixture of various sizes to give desired load bearing strength and properties to the asphalt mix as specified in the mix design.
- the strength and durability of the asphalt pavements depends on various factors such as the properties of the materials used, the interaction of the various materials and the mix-design.
- One of the key factors determining the strength and durability of the asphalt pavement also depends on the ability of the mix to be compacted to the desired design densities and air-voids. A mix that is not properly compacted will have poor strength and will be prone to various pavement distresses. It is important to attain proper coating of the aggregate with asphalt with optimum binder content and good adhesion of asphalt onto the aggregate and good cohesive strength of the asphalt to produce a mix that will have a good performance during the lifetime of the pavement. Pavement is designed to avoid some commonly known distresses such as permanent deformation, fatigue cracking, low temperature cracking and moisture damage.
- the mixes are also designed to achieve a specified density and % air-voids.
- the temperature of the mix has a big influence on the ability to compact.
- Various grades of asphalt are used in asphalt mixes depending on the predicted traffic load and expected pavement temperatures.
- Higher PG Performance Grade asphalts are used in pavements with a higher traffic load and in areas where the pavement temperatures are higher.
- PG 76-22 asphalt is used on highways in the Southern part of US and in pavements with lower traffic loadings, PG 64-22 asphalts are used.
- binders are usually polymer modified (PMA) and are consequently more viscous requiring much higher mix temperatures to facilitate compaction to the target design densities.
- Warm mix asphalt will also allow longer haul distances as the mix at a lower temperature will maintain lower viscosity and workability when it reaches the construction site.
- Warm-mix asphalt paving could be done at cooler weather compared to hot-mix asphalt and thereby extending the asphalt season e.g. paving late into Fall and paving earlier in Spring.
- Lower temperature also would reduce oxidative hardening of the asphalt which will enhance pavement performance in extending the pavement life.
- Moisture damage is also of great concern. Moisture damage in asphalt mixes can occur by two major pathways. First water will displace asphalt from the aggregate surface especially the ones containing higher amounts of silica since water has a higher affinity for the aggregate surface compared to asphalt and there is lack of chemical bonding of asphalt to the surface. This is known as stripping. Adhesion is the formation of chemical bond between asphalt and the aggregate. Secondly water over a period of time under repeated load can get inside asphalt and reduce the cohesive strength of asphalt. The results of stripping and loss of cohesive strength of the asphalt on the properties of the mix can be conveniently evaluated by the Hamburg wheel tracking test which measures deformation of the mix by a repeated load under water and by the Tensile strength Ratio test such as ASTM D 4867 procedure.
- a second category of treatments introduces certain amount of water into the mix by different means.
- water evaporates and causing foaming of asphalt thereby increasing the surface area of asphalt significantly.
- the foaming process reduces the viscosity of the aggregate mix, thereby helping to produce the aggregate mix at reduced temperatures, which facilitates paving at lower than normal temperatures.
- the Eurovia Zeolite process works through the generation of foam by liberating water of hydration and in this way helps to generate the foam in asphalt.
- the MeadWestvaco Warm Mix process uses water from the emulsified asphalt to produce the same foaming effect.
- Shell WAM process water is directly introduced to aggregate hot mixing process to generate foaming of asphalt.
- the third category includes methods where there is a change in mechanical design of hot-mix plant that allows production of the mix at lower than normal temperatures and which can be paved at lower than normal temperatures.
- the present invention is concerned with the technical problem of reducing the mixing and paving temperatures and at the same time improving the resistance to moisture resistance of the hot-mix asphalt used for production of road surfaces without sacrificing the performance characteristics of the asphalt mix. More specifically, the present inventors have found that a novel combination of surfactants and rheology modifiers can improve the ease of mixing, lay down and compaction of asphalt mixes by reducing the viscosity of the asphalt binder and aggregate mix during the production and paving of the mix and thereby reduces the compactive effort required to attain the optimum design densities.
- the unique combination of surfactants that help in compaction also function as adhesion promoters by improving the coating and bonding of the asphalt to the aggregates surfaces.
- Asphalt binder modified with these surfactants has a higher affinity to aggregate surface compared to water and so water cannot displace or strip asphalt from the aggregate surface.
- the rheology modifiers also improve the cohesion strength of asphalt at pavement temperatures and thereby further improve the moisture resistance properties of the mix. This is the first instance that a unique combination of surfactants and rheology modifiers have been used as a single package that function as a compaction aid/warm additive and adhesion promoter in one. Unlike other additives and techniques for warm-mix, the current invention does not deliberately introduce water into the mix and does not have any adverse effect on low temperature properties of asphalt as demonstrated by the Bending Beam Rheometer.
- the present invention relates to an additive package for asphalt formulation that comprises a novel combination of surfactant component(s) and rheology modifier(s) component(s).
- Modifiers which modify the rheology (viscosity) of the asphalt, in particular reduces the viscosity of the asphalt and asphalt aggregate mix at the mixing and paving temperatures.
- the surfactants ability to reduce the surface tension of asphalt and thereby increasing the wetting characteristics of the asphalt to the aggregate surface further helps in compaction.
- the combined effect of the rheology modifiers and surfactants aids in compacting the mixes at lower than normal temperatures.
- the additive package of the invention also improves the affinity and chemical bonding of the asphalt to the aggregate surface and thereby increasing the aggregate-asphalt bond's resistance to water, as well as improving the cohesive strength of the asphalt.
- the present invention relates to a bitumen or asphalt formulation for the pavement of road surfaces, said formulation comprising a mixture of bitumen and aggregates, and an additive package distributed therein.
- the additive package of the invention comprises a combination of surface active components and rheology modifying components.
- the surfactant component preferably comprises at least one or more amine or modified amine surfactants, while the rheology modifying component comprises at least one or more of i) a wax component, and ii) a resin component.
- the wax component can be derived from crude oil or synthetic sources such as Fischer-Tropsch or Polyethylene or Polypropylene sources in the congealing point range of 60° C. to 150° C. and above.
- the additive package of the invention positively influences ability to compact the mixes at lower than normal temperatures by the reduction of viscosity of the asphalt aggregate mix and significantly improves the moisture resistance properties of the asphalt by improving both the adhesion and cohesion properties of asphalt.
- the combination of rheology modifiers and surfactant does not compromise any of the low temperature requirements of asphalt as demonstrated by the Bending Beam Rheometer.
- Hot Mix asphalt mixture known to the skilled artisan can be employed in the context of the present invention.
- standard asphalt wearing course typically contains about 3 to 8% of bitumen
- stone mastic asphalt which contains about 6.5 to 8.5% of bitumen
- the concept is applicable to any paving grade asphalts and modified such as the various grades of PG (Performance Graded) asphalts including polymer modified, tire rubber modified asphalts, asphalts modified by Gilsonite or Trinidad Lake Asphalt, and similar materials.
- the additive package of the invention comprises from about 10 to 60% by weight of an amine or modified amine surfactant, and from about 20 to 90% of a rheology modifying component.
- the surfactant component preferably comprises at least one amine or modified amine surfactant, while the rheology modifying component comprises at least one or more of i) a wax component, and ii) one or more resin component(s).
- the additive package of the invention comprises 20 to 60% by weight of an amine or modified amine surfactant, and from about 30 to 80% of a rheology modifying component(s).
- the rheology modifying component comprises two rheology modifiers from separate classes i), or ii) in accordance with the invention, it is preferred that they are present in a ratio of from 20:80 to 80:20; more preferably 40:60 to 60:40, and in another embodiment, in approximately 50:50 proportions.
- the surfactant component of the additive package of the invention comprises at least one amine and/or modified amine surfactant or mixtures thereof.
- the surfactant component is selected from amines, diamines, polyamines, ethoxylated amines, ethoxylated alkyl diamines, ethoxylated alkyl polyamines, amido amines, amidopolyamines, imidazolines, and/or any of their corresponding organic and/or inorganic salts, and mixtures and combinations of same.
- R is a saturated or unsaturated, substituted or unsubstituted, optionally branched or cyclic, hydrocarbon radical group with 8-24 carbon atoms, for example derived from tallow fatty acids, or tall oil fatty acids.
- R 1 and R 2 can be the same or different and are selected from hydrogen or hydrocarbon radical chain with 1-24 carbon atoms.
- R 1 and R 2 are preferably selected from hydrogen or methyl.
- a representative example is hydrogenated tallowamine (CAS No. 61788-45-2).
- Diamines and Polyamines R—(NH—R 3 ) x —NH 2 where R has the same meaning as in I, above, and R 3 represents a linear or branched hydrocarbon radical with 1-6 carbon atoms.
- R 3 is propylene radical (—CH2CH2CH2—) and x is a small integer of less than or equal to 6.
- R, R 1 , R 2 and R 3 has the same meaning as in I, above.
- This group includes the reaction product of fatty acids or esters with complex mixtures of polyethylenepolyamines and related compounds which may contain also cyclic and substituted nitrogens obtained as by-products in the manufacture of diethylene triamine and ethylene diamine. Representative compounds have the CAS Nos 402591-95-1, 68910-93-0, 103213-06-3, 95-38-5.
- the products listed above may be present in the mixtures described in the invention as their salts or organic or inorganic acids including but not limited to the salts of long chain fatty acids, e.g. stearic acid, salts of phosphoric acids, or substituted phosphoric acids, acetic acid, naphthenic acids, rosin acids etc.
- long chain fatty acids e.g. stearic acid, salts of phosphoric acids, or substituted phosphoric acids, acetic acid, naphthenic acids, rosin acids etc.
- Specific surfactants useful in the additive package of the invention include, but are not limited to ethoxylated tallow amines, fatty amines, fatty amine derivatives, tall oil amidoamines/imidazolines, bis hexamethylene triamine and higher oligomers of hexmethylediamine, other alkyl amine surfactants with a hydrocarbon chain consisting of 8 to 22 carbon atoms and mixtures combinations thereof.
- surfactants include, but are not limited to tallow n-propylene diamine, tris-ethoxylated tallow N-propylene diamine, Redicote C-450, a mixture of imidazolines and amidopolyethylenepolyamines, Wetfix 312—a mixture of imidazolines and amidoamines available from Akzo Nobel Surface Chemistry LLC, Chicago, Ill.
- the surfactant component can also include hydrogenated tallow propylene diamine, ethoxylated hydrogenated tallow propylene diamine, tallow dipropylene triamine, tallow tripropylene tetramine and their derivatives, and amides resulting from the condensation fatty acids with dimethylaminopropylamine.
- the rheology modifying component of the additive package of the invention comprises i) at least one hydrocarbon polymer component which could include materials commonly known as waxes, ii) at least one resin component and mixtures and combinations thereof.
- Wax modifiers that can be usefully employed in the context of the invention include, but are not limited to waxes of vegetable (e.g. carnuba wax), animal (e.g. beeswax) mineral (e.g. MontanTM wax from coal, including oxidised waxes; amide waxes (e.g. ethylene bis stearamide, stearyl amide, stearylstearamide); fatty acids and soaps of waxy nature (e.g.
- the amount of the Fischer-Trospsch wax or its derivative introduced in to the asphalt is kept below 0.5% by the weight of the asphalt/bitumen.
- the wax component can be derived from crude oil or Fischer-Tropsch process or other synthetic wax processes such as for example Polyethylene and polypropylene waxes in the congealing point range of 60° C. to 150° C. and above.
- the above products are basically soluble in the asphalt at the temperatures of the hot mix, to make a homogeneous binder, and/or will melt at the temperature of the mix and the ingredients will disperse/dissolve into the mixture.
- the wax and resin ingredients will generally act to improve the viscosity and flow properties of asphalt at the mix and compaction temperatures and improve the cohesion properties of the asphalt at pavement temperatures, while the surfactant component reduce the surface tension and coating ability of asphalt and thereby further assist in compaction and at the same time will improve the adhesion of the asphalt to the aggregate. Together the ingredients provide improved compaction at lower than normal temperature while improving the adhesion and cohesion properties of the mix making it more resistant to moisture damage.
- the invention preferably employs a hydrocarbon polymer also known as polyethylene wax derived from polymerization of ethylene in the presence of a catalyst (Ref).
- a hydrocarbon polymer also known as polyethylene wax derived from polymerization of ethylene in the presence of a catalyst (Ref).
- the congealing point of the wax is between 80° C. and 120° C. with a Brookfield viscosity at 135° C. in the range of 10 to 40 cPs.
- a second type of rheology modifying component comprises resins of vegetable (tall oil pitch, pine tar pitch, tall oil rosins, rosin acids, pine rosins, gum rosins including chemically modified resins like maleated and fumarated rosins and resinous by-products from tall oil processing or the processing of gum rosins.) or petroleum (petroleum resins, phenolic resins).
- resins having a Drop melt point >60° F., in another embodiment >60° C., and a Penetration ⁇ 50 at 25° C. for example Tall Oil pitch or modified tall oil pitches containing long chain and tricyclic organic acids and sterols, are useful.
- the tall oil resin based modifiers may also include non-resinous fractions from distillation of crude tall oil such as fatty acids, tall oil heads, and may also include chemically modified version of these fractions as a result of maleation and fumarization.
- Preferred rheology modifiers of this class include, but are not limited to tall oil pitch, maleated tall oil pitch, rosin acids, tall oil heads.
- Polymers of elastomer naturally rubber, styrene butadiene rubber, polychlorprene, crumb rubber from reclaimed tires etc) character; asphaltic materials of high softening point (e.g.
- asphaltenes GilsoniteTM, Trinidad Lake Asphalt, by-products from the deasphalting of oils, oxidised asphalts etc); asphaltenes such as ROSE bottoms (Residuum Oil Supercritical Extraction) and other zero penetration asphalts may also be employed either alone or in combination.
- ROSE bottoms Residuum Oil Supercritical Extraction
- other zero penetration asphalts may also be employed either alone or in combination.
- the invention contemplates a combination of surface active agents with one or more asphalt rheology modifiers which might include polyethylene wax, polypropylene wax, Fischer-Tropsch wax, crude oil derived waxes, other types of wax, polymers, Gilsonite, or tall oil based modifiers, the key feature being that these types of ingredients have been combined into a single product.
- asphalt rheology modifiers might include polyethylene wax, polypropylene wax, Fischer-Tropsch wax, crude oil derived waxes, other types of wax, polymers, Gilsonite, or tall oil based modifiers, the key feature being that these types of ingredients have been combined into a single product.
- the warm mix additives of the invention can be added as a single additive package, or the individual components of said additive package. Whether added as a single package, or as individual components, the additives of the invention can be added at various stages of the warm mix process.
- the additive package of the invention can be blended into the asphalt binder before the asphalt is introduced to the aggregate in the hot-mix plant, it can be added to the aggregate, or a portion of the aggregate, before asphalt is added to the mixer or it can be added to the mixer in the hot-mix plant after asphalt has been added to the aggregate. It is preferably added into the mixer such as the drum mixer at the hot-mix plant.
- the dosage level of the additive package by the weight of the asphalt is in a range from 0.2 to 10% by weight, preferably in the range from 0.5 to 6% by weight, and further preferably about 1 to 3% by weight, based on asphalt binder.
- AN 003 is a mixture illustrating the invention and comprises: Toprez LM (tall oil derived resin ex Chusei) - 10% N-tallow propylene diamine 37.5% Fischer Tropsch wax 21.5% Polyethylene wax (ex Chusei) 31.0% AN 004′′ is a mixture illustrating the invention and comprises: Toprez LM (tall oil derived resin ex Chusei) - 20% N-tallow propylene diamine 37.5% Polyethylene wax (ex Chusei) 42.5%
- Moisture damage in asphalt mixes can be evaluated either by the Hamburg Wheel Tracking test and by the Tensile Strength Ratio test according the ASTM D 4867 which is also commonly known as the modified Lottman and Root Tunniclif Test.
- Asphalt PG Grade Testing It is essential that the additives do not adversely affect the properties of the asphalt binder especially the low temperature properties of the asphalt as measured by the Bending Beam Rheometer Test. So PG 76-22 binder modified with 2% AN 003 and separately with AN 004 were subjected to the standard PG grading tests (AASHTO T 315, and T 313). The results are listed in Table 5.
- these warm-mix additives can help to lower mix and compaction temperatures by about 60° F. as demonstrated by the compaction tests and at the same time provide a mix resistant to water damage as demonstrated by the TSR and the Hamburg Wheel Tracking Test. Unlike other wax modifiers these warm-mix additives do not have any detrimental effect on the lower temperature properties of asphalt as demonstrated by m-value and Creep Stiffness PG grade testing.
Abstract
Description
wherein R is a saturated or unsaturated, substituted or unsubstituted, optionally branched or cyclic, hydrocarbon radical group with 8-24 carbon atoms, for example derived from tallow fatty acids, or tall oil fatty acids. R1 and R2 can be the same or different and are selected from hydrogen or hydrocarbon radical chain with 1-24 carbon atoms. R1 and R2 are preferably selected from hydrogen or methyl. A representative example is hydrogenated tallowamine (CAS No. 61788-45-2).
R—(NH—R3)x—NH2
where R has the same meaning as in I, above, and R3 represents a linear or branched hydrocarbon radical with 1-6 carbon atoms. In one embodiment R3 is propylene radical (—CH2CH2CH2—) and x is a small integer of less than or equal to 6. A representative example, where R=tallow, x=1 and R3=propylene, is N-tallow propylenediamine (CAS No. 61791-55-7)
where R has the same meaning as in I, above; and x and y are independently selected from 0, 1 or 2, and each R4 is independently selected from H or CH3. In one embodiment, x=y=1. A representative example, where R4═H and R=hydrogenated tallow alkyl, x=y=1 is N,N diethanol, hydrogenated tallowamine (CAS No. 90367-28-5).
wherein R and R3 have the same meaning as in II, above; x, y, and z are independently selected from 0, 1 or 2 and x+y+z< or =5, and each R4 is independently selected from H or CH3. In one embodiment, x=y=z=1. A representative example, where x=y=z=1, R4═H and R3=propylene is N,N,N′Tris(2-hydroxyethyl)-N-hydrogenated tallow-1,3-diaminopropane (CAS No. 90367-25-2).
wherein R, R1, R2 and R3 has the same meaning as in I, above. A representative example is where R1═R2=methyl and R3=propylene and R═C8-C22 alkyl has the CAS No. 84082-43-9.
RCO—(NH—R3)x—NH2
wherein R and R3 have the same meaning as in example I, above, and x=an integer of from 1 to 10. This group includes the reaction product of fatty acids or esters with complex mixtures of polyethylenepolyamines and related compounds which may contain also cyclic and substituted nitrogens obtained as by-products in the manufacture of diethylene triamine and ethylene diamine. Representative compounds have the CAS Nos 402591-95-1, 68910-93-0, 103213-06-3, 95-38-5.
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- (a) It not only helps to lower the hot-mix production and compaction temperatures but also at the same time improves the moisture resistance properties of the mix. It is a warm-mix additive and an adhesion promoter/antistripping additive in a single package, or the individual components of said package can be added separately. As a warm-mix additive it reduces the viscosity and improves the flow properties of asphalt along with its coating ability to the aggregate surfaces and thereby reduces the temperature required to compact an asphalt mix by 15 to 60° F. lower compared to an asphalt mix without the additive package. As an adhesion and cohesion modifier it improves the moisture resistance of mixes as demonstrated by the Tensile Strength Ratio test and the Hamburg Wheel Tracking Tests.
- (b) Unlike other wax based warm-mix additives such as Fischer-Tropsch waxes does not suffer from the problems of asphalt binder embrittlement and consequent low temperature cracking fatigue as demonstrated by the Bending Beam Rheomoter test.
- (c) The additive package of the invention, because of melting point and physical characteristics allows it to be formulated in a physical form such as powder, pastillated, or flaked free flowing solid or liquid which can be blended into asphalt binder just before production of the hot-mix or could be added to the drum dryer at various stages during the production of the hot-mix, as described above.
TABLE 1 |
Target gradation and asphalt content |
Sieve | % Passsing |
Size | JMF | Actual |
19.0 | 100.0 | 99.0 |
12.5 | 90.00 | 87.9 |
9.5 | 83.00 | 79.9 |
4.75 | 52.00 | 49.6 |
2.36 | 34.00 | 32.2 |
1.18 | 25.00 | 23.6 |
0.6 | 19.00 | 18.6 |
0.3 | 13.00 | 14.7 |
0.15 | 5.00 | 5.3 |
0.075 | 2.90 | 2.9 |
Asphalt % | 5.3 | 5.1 |
The densification was carried out with a vibratory compactor for a period of 30 seconds as described in the NCAT (National Center for Asphalt Testing) Report Dated June 2005 and the % air-voids were measured. Three different compaction temperatures were used and in each case the aggregate mix with binder was prepared at 35° F. above the respective compaction temperatures. Three separate mixes were evaluated at each of the three compaction temperatures:
(a) Warm Mix formulation AN 003 at 2% on PMA binder PG 76-22.
(b) Warm Mix formulation AN oo4 at 2% on PMA binder PG 76-22.
(c) PMA 76-22 binder without any Warm Mix additive as Control.
The results are listed below in Table 2.
TABLE 2 |
Densifications Test Results - Air Voids % at different compaction temperatures. |
Temp. | 300° F. | 270° F. | 240° F. |
Sample | AN 003 | AN 004 | PG 76-22 | AN 003 | AN 004 | PG 76-22 | AN 003 | 004 | PG 76-22 |
1 | 5.1 | 4.2 | 5.5 | 5.2 | 4.9 | 6.0 | 6.0 | 5.4 | 6.5 |
2 | 5.0 | 5.0 | 5.4 | 5.3 | 4.5 | 6.8 | 6.0 | 5.9 | 7.1 |
3 | 5.0 | 4.9 | 5.3 | 5.0 | 4.3 | 6.5 | 6.3 | 5.4 | 7.5 |
4 | 5.0 | 5.0 | 5.3 | 5.8 | 4.5 | 6.2 | 6.5 | 5.5 | 6.5 |
5 | 4.7 | 3.8 | 5.8 | 5.7 | 4.6 | 7.0 | 6.4 | 6.2 | 6.3 |
6 | 5.0 | 5.0 | 5.4 | 5.6 | 4.9 | 6.6 | 6.3 | 5.5 | 6.8 |
Avg. | 4.9 | 4.6 | 5.5 | 5.4 | 4.6 | 6.5 | 6.3 | 5.7 | 6.8 |
Std. Dev. | 0.14 | 0.53 | 0.19 | 0.31 | 0.23 | 0.37 | 0.21 | 0.33 | 0.45 |
“AN 003” is a mixture illustrating the invention and comprises: | |||||||||
Toprez LM (tall oil derived resin ex Chusei) - 10% | |||||||||
N-tallow propylene diamine 37.5% | |||||||||
Fischer Tropsch wax 21.5% | |||||||||
Polyethylene wax (ex Chusei) 31.0% | |||||||||
AN 004″ is a mixture illustrating the invention and comprises: | |||||||||
Toprez LM (tall oil derived resin ex Chusei) - 20% | |||||||||
N-tallow propylene diamine 37.5% | |||||||||
Polyethylene wax (ex Chusei) 42.5% |
TABLE 3 |
Tensile Strength Ratio Tests |
Conditioned | Unconditioned | Tensile | ||
Warm-Mix | Tensile | Tensile | Strength | |
Additive | Strength Psi | Strength Psi | Ratio | |
AN 003 | 74.7 | 79.4 | 0.94 | |
AN 004 | 74.2 | 83.7 | 0.89 | |
*The specimens for the TSR test with additives AN 003 and AN 004 were compacted at 270° F. |
TABLE 4 |
Hamburg Wheel Tracking Test Results |
Stripping | Avg. | Avg. | Total | Avg. | ||||
Air | Inflection | Stripping | Rutting | Rutting | Rutting @ | Total | ||
Voids, | Compaction | Point, | Inflection | Rate, | Rate, | 10,000 | Rutting, | |
Mix Type | % | Temp., F. | cycles | Point, cycles | mm/hr | mm/hr | cycles, mm | mm |
AN 003 #1 | 7.2 | 270 | >10,000 | >10,000 | 0.513 | 0.801 | 5.15 | 5.89 |
AN 003 #2 | 7.0 | 270 | >10,000 | 1.089 | 6.62 | |||
AN 004 #1 | 7.0 | 270 | >10,000 | >10,000 | 0.396 | 0.345 | 4.73 | 4.25 |
AN 004 #2 | 7.0 | 270 | >10,000 | 0.294 | 3.77 | |||
It can be seen from the results that the stipping inflection point happens after 10,000 cycles with both additives and the average rut depth is 5.89 mm and 4.25 mm with AN 003 and AN 004 respectively.
Asphalt PG Grade Testing:
It is essential that the additives do not adversely affect the properties of the asphalt binder especially the low temperature properties of the asphalt as measured by the Bending Beam Rheometer Test. So PG 76-22 binder modified with 2% AN 003 and separately with AN 004 were subjected to the standard PG grading tests (AASHTO T 315, and T 313). The results are listed in Table 5.
TABLE 5 |
Performance Grade Testing Results |
PG 76-22 + | PG 76-22 + | ||
Test | PG 76-22 | 2% AN 003 | 2% AN 004 |
G*/Sin d (kPa) @ | 1.17 | 1.05 | 1.03 |
76° C. | |||
RTFOT G*/Sin d | 2.49 | 2.27 | 2.25 |
(kPa) @ 76° C. | |||
BBR Creep | 185 | 144 | 140 |
Stiffness, S, @ −12° | |||
C. | |||
BBR, Slope m-Value | 0.316 | 0.342 | 0.344 |
@ −12° C. | |||
Original Binder | 73.8 | 70.20 | 72.0 |
Phase Angle @ 76° | |||
C., Degrees | |||
Note that the Low Temperature flexibility properties as measured by the m-Value (should be above 0.3) and Creep Stiffness (lower the better) are significantly improved by the additive compared to the control PMA 76-22 without additive. |
Claims (14)
R—(NH—R3)x—NH2
RCO—(NH—R3)x—NH2
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US74279010A | 2010-07-30 | 2010-07-30 | |
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